Early-phase simultaneous multiband observations of the Type II supernova SN 2024ggi with Mephisto

TL;DR

This paper reports early multiband observations of supernova SN 2024ggi, revealing rapid brightness rise, temperature evolution, and progenitor characteristics through modeling and archival data analysis.

Contribution

It provides the first detailed early-phase multiband light curves and temperature evolution of SN 2024ggi, along with progenitor property estimates from archival imaging.

Findings

Rapid rise in brightness within 4 days

Significant temperature increase indicating shock breakout

Progenitor estimated to be 14-17 solar masses

Abstract

We present early-phase good-cadence (hour-to-day) simultaneous multiband ($ugi$ and $vrz$ bands) imaging of the nearby supernova SN~2024ggi, which exploded in the nearby galaxy, NGC 3621. A quick follow-up was conducted within less than a day after the explosion and continued $\sim$23 days. The $uvg$ band light curves display a rapid rise ($\sim$1.4 mag day$^{-1}$) to maximum in $\sim$4 days and absolute magnitude $M_{g}\sim$--17.75 mag. The post-peak decay rate in redder bands is $\sim$0.01 mag day$^{-1}$. Different colors (e.g., $u-g$ and $v-r$) of SN~2024ggi are slightly redder than SN 2023ixf. A significant rise ($\sim$12.5 kK) in black-body temperature (optical) was noticed within $\sim$2 days after the explosion, which successively decreased, indicating shock break out inside a dense circumstellar medium (CSM) surrounding the progenitor. Using semianalytical modeling, the ejecta mass and progenitor radius were estimated as 1.2 $M_\odot$ and $\sim$550 $R_\odot$. The archival deep images ($g,r,i and z$ bands) from the Dark Energy Camera Legacy Survey were examined, and a possible progenitor was detected in each band ($\sim$22--22.5 mag) and had a mass range of 14--17 $M_\odot$.